SU1813502A1 - Device for mechanical purification of sewage water - Google Patents

Description

The invention relates to a device for cleaning liquids from coarse mechanical suspensions, can be used as a trap filter in sewer wells for wastewater treatment.

The goal is to reduce costs, increase the reliability and efficiency of wastewater treatment from fibrous and other large contaminants directly in sewer wells.

In Fig, 1 shows a perspective view of the device installed in a sewer well; Fig. 2 is a removable container of a filter-trap; Fig. 3 is a frame with a spacer for a filter trap in a sewer well, top view.

The device contains a metal frame 1 made of vertical and horizontal elements movably articulated with each other when. by means of hinges 2, a wedge-shaped flow divider 3 is installed on the frame, 4 removable containers with limiting visors 5. The wedge-shaped distributor is connected to a spacer bar 6, covered with a filter grid. A removable tray 7 is installed under the frame,

The frame 1 is made sliding interconnected with the spacer bar 6, which is connected to the flow divider 3, the flow divider 3 has a wedge-shaped shape, the vertical walls of which are located at an angle to each other and are rigidly connected to each other. With a spacer bar 6, with a tray 7 and with other elements of the frame 1, the flow divider 3 has a movable connection. The flow divider 3 also serves as a spacer.

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1813502 A1

Removable containers 4 (Fig. 2) have a metal rectangular frame with side guides 8 and an eye 9, which is rigidly connected to the perforated 'g tubing vertical and horizontal spherical walls. Combs 10 are installed on the vertical wall for capturing fibrous and other waste water inclusions. Removable containers 4 are designed to collect these inclusions with their subsequent removal from the sewer> well 11 _e .

The limiting visors 5 are made in the form of vertical perforated arcuate walls and are designed to prevent untreated wastewater from escaping near the inlet gutter 12 of the sewer 20 11o. The limiting visors 5, like the Removable containers 4, are articulated with the metal frame 1.

The spacer bar 6 is equipped with a tal-25, connected to the flow divider 3 and is designed to spread the filter-trap in the sewer well 11. The removable tray 7 is made in the form of the trough 12 of the sewer-3Q well 11, has a limiter 13, is designed to receive wastewater and serves as a stop for expanding the device in the sewer well 11. 35

The device is installed as follows. When folded, it is lowered into a sewer well, connected to a tray 7 and a rod 6. Tray 7 is installed in the chute 12. of the well 11 from the side of the entrance to the sewage well, the stopper 13 rests the tray 7 against the wall of the well 11, and on the opposite side against the wall well 11 abut the spacer rod-d ^ gy 6. Rotating the lanyard of the spacer bar ι 6, the device is installed in the well 11. When the lanyard rotates, the spacer bar 6 is lengthened, pushes forward the rigid flow divider 3 ν СТ oU along the guide surface of the tray / _o At the same time, the separator flow 3 with its wedge-shaped base acts on the elements of the frame 1 articulated with it, the limiting visors 5 are tightly pressed against the surface. ⁵⁵ of the well 11, and removable containers-4 with their spherical vertical walls do not touch the surface of the walls of the well 11, remain free for the possibility of their removal, cleaning and installation.

The device works as follows. Waste water entering the sewer well 11 through the chute 12 (Fig. 1) is received by the chute 7 and fills the space bounded by the filter walls of the device. In this case, the waste water is divided by the flow divider 3 into two sides along the directions formed by the vertical rectangular walls of the wedge-shaped separator 3 and the spherical surface of the vertical walls of the removable containers 4. The waste water, filtering through the filter walls of the device, simultaneously makes circular circulation along the spherical walls containers 4, on which are installed-catching combs 10, the teeth of which are located with a deviation from the vertical by 15-20 ° in the direction of the wastewater flow. With such circulation, due to the centrifugal effect, suspended particles in the form of fibrous and other inclusions are retained by the teeth; combs 10, gradually accumulating in containers 4. Purified in the sewer well 11, wastewater is directed through the outgoing chute 14 into the sewer system without contaminating it. Periodically, depending on the flow rate and waste water content, the device is cleaned.

The device is designed for preventive wastewater treatment directly in sewer wells installed at pollution sources.

The device has a compact sliding frame with articulated elements, which form a perforated wedge-shaped flow divider, spherical removable containers with catching combs and limiting visors. The device is equipped with a spacer rod. and a removable tray with the possibility of their interaction with a wedge-shaped flow divider to ensure a reliable pacTiopa of the filter-trap / trap in the sewage sump. The teeth of the catcher combs are located at an angle of 15-20 ° from the perpendicular towards the flow.

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This angle is the most rational for reducing maintenance costs and increasing the capture and removal of suspended fibrous substances.

The device is placed directly at the source of pollution, which allows you to constantly keep the entire sewer system clean, does not contaminate with mechanical impurities to achieve efficiency in operation, the device is equipped with a wedge-shaped flow divider installed on the frame with a spacer bar, removable spherical containers with restrictive visors, hinged to frame, and stubborn waste treatment plants.

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Claims (1)

Claim 1 „A device for mechanical wastewater treatment, containing a frame, a filter grid and gripping elements, characterized in that, in order to reduce _{2 0} Device according to claim 1, which is characterized by the fact that the gripping elements are located in removable containers and are made in the form of vertical combs installed along an arc with teeth inclined towards the flow at an angle of 15-20 °, (RigA view A Fi g 2 Fig. 3